Pear preparation machine



Nov. 14, 1939.

A. THOMPSON PEAR PREPARATION MACHINE l0 Sheets--Sheei'l 1 Filed Deo. 18, 1956 mwnmfl JNVENToR. /f/cff. a/f//asa/I.

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Nov. 14, 1939. A. R. THOMPSON PEAR PREPARATION MACHINE Filed Dec. 18, 1936 10 Sheet s-Sheet 3 Nov. 14, 1939. A. R. THOMPSON 2,179,529

' PEAR PREPARATION MACHINE Filed Deo. 18, 1956 10 Sheets-Sheerl 4 @v @TTOR .I

Nov. 14, 1939.

A. R. THOMPSON 2,179,529

PEAR PREPARAT I ON MACHINE Filed Deo. 18, 1936 10 Sheets-Sheet 5 Nov. 14, 1939. A. R. THOMPSON PEAR PREPARATION MACHINE Fild Dec.

18, 1936 l0 Sheets-Sheet 6 v INVENTOR. /4/l7eff. fi. Thom/maf?.

A TTORNEY.

Nov. 14, 1939. A. R. THOMPSON PEAR PREPARATION MACHINE Filed Dec. 18, 1956 l0 Sheets-Sheet 7 INVENToR. //cf/ fha/150mm.

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A. R. THOMPSON PEAR PREPARAT I ON MACHINE Filed Dec. 18, 1956 10 Sheets-Sheet 8 INVENToR. /4/cf /T Mam/Qian.

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Nov. 14, 1939. A. R. THOMPSON PEAR PREPARATION MACHINE Filed Dec. 18, 1956 10 Sheets-Sheet 9 INVENTOR. /4/q/f/ Mam/ww?.

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Nov. 14, 1939. A. R. THoMPsoN PEAR PREPARAT ION MACHINE Filed Dec. 18, 1936 10 Sheets-Sheet 10 ffyf?. INVENToR.

/4/e/ /ff W70/@050m ATToR y Patented Nov. 14, 1939 UNITED STATES PATENT OFFICE to Food Machinery Corporation, San Jose,

Calif., a corporation of Delaware Application December 18, 1936, Serial No. 116,595

27 Claims.

This invention relates to improvements in fruit preparation machines of the character disclosed in the copending application of myself and William de Back, Serial No, 745,252, filed September 24, 1934, now matured into Patent No. 2,139,704, by which the operations for preparing fruit, such as pears, for canning or drying are performed automatically by mechanical means. More particularly, the invention relates to an improved feed mechanism for such machines for delivering the pears properly centered to the operative mechanisms of t o machine.

To obtain symme rical pear halves which have been completely peeled and from which all the core has been removed, it is essential that the pears be centered correctly. To this Vend, it has been found that proper centering of a pear can be eiected by centering the stem end of the pear by the stem itself, and by centering the calyx 20 end of the pear by the exterior contour thereof.

The present invention contemplates the obtaining of this result by Wholly automatic mechanism which eliminates reliance on the judgment of the operator, and the uneven, improperly cored pear halves resulting from errors in judgment.

A general object of my invention is to provide an improved machine to which the pears may be fed continuouslyand which operates to stem, peel, split, core and trim the fruit with a resultant improved product.

Another general object of my invention is to provide an improved machine of the above type by which the pears are centered entirely by automatic mechanism rather than by an operator.

Another object of my invention is to provide an improved feed mechanism for such machine to which pears may be fed continuously and which operates to center each pear accurately.

Another object of my invention is to provide an improved feed mechanism for such machines, which centers the pears correctly to insure eicient peeling, coring, and splitting operations.

Another object of my invention is to provide an improved feed mechanism for such machines, which centers the stem end of the pears by the stem and which centers the ower end of the pears by their exterior contour. Another object of my invention is to provide an improved machine of the above type in which the drive is interrupted if the operators hand is caught in the feed mechanism.

Other objects and advantages will be apparent from the following description of a preferred em- (Cl. 14S-33) bodiment of my invention as illustrated by the accompanying drawings, in which:

Fig. 1 is a plan view of the machine with the upper portion of the gear cover broken away to disclose the arrangement of the main driving gears.

Fig. 2 is a fragmentary elevational view of the drive interrupting means, the view being indicated by the line 2--2 in Fig. 1.

Fig. 3 is a vertical sectional view taken along the longitudinal center line of the machine, with the cam cylinder, the splitting and coring mechanism, and certain associated parts shown in elevation. In this figure, the reciprocating carriage has been advanced to the end of its forward stroke.

Fig. 4 is an end elevation of the left hand end of the machine with the gear cover and parts thereof removed to 'show the driving gears.

Fig. 5 is a vertical sectional view taken in a plane indicated by the line 5 5 of Fig. 1.

Fig. 6 is a fragmentary vertical sectional view taken in a plane indicated by the line 6 6 of Fig. 3, the centering ring being omitted for clearer clarity.

Fig. 7 is a fragmentary view similar to Fig. 6, but showing only the centering ring and parts associated therewith.

Fig. 8 is a fragmentary perspective view illustrating the arrangement of one of the pushers with respect to the spindle and spindle frame arm with which it is associated, just before being carried into engagement with the latch block by which it is operated,

Fig. 9 is a fragmentary perspective view of the same parts shown in Fig. 8 illustrating the manner in which the pushers are actuated by the latch block.

Fig. 10 is a vertical sectional view taken longitudinally through the center line of the feed mechanism.

Fig. 11 is an end elevation of the shuttle block associated with the feed mechanism for actuating the impaling spindles.

Fig. 12 is a sectional view of the shuttle block taken in the plane of the line |2-l2 in Fig. 11.

Fig. 13 is a side elevation of the feed mechamsm.

Fig. 14 is a fragmentary vertical sectional View taken transversely of the machine in the plane of the line lll-I4 of Fig. 3, the centering blades at the feed position (I) being shown in position to receive a pear.

Fig, 15 is a view of the centering blades similar to Fig. 14 but showing the blades closed at the feed position to grasp the stem of a pear prior to rotation of the feed mechanism.

Fig. 16 is a fragmentary perspective view of the centering, mechanism and associated impaling spindle as positioned when a pear is rst presented thereto by an operator.

Fig. 17 is a View similar to Fig. 16 and illustrates the position of the centering mechanism after actuation thereof to center the pear.

Fig. 18 is a view similar to Figs. 16 and 17, showing the position of the centering mechanism and the impaling spindle after the pear is impaled on the spindle and the centering ring has been withdrawn.

The type of machine with which my invention is illustrated, and with which it is preferably employed, will be described briefly to enable a better understanding of construction and operation of the disclosed embodiment of such invention.

Generally, the machine comprises an intermittently rotating turret provided with a' series of stemming tubes upon which the pears to be treated are impaled and advanced. The pears are delivered to the stemming tubes by means of a rotary feeding device to which they are manually delivered, and which is operated in timed relation to the turret to position the pears with their stem axes in alignment with the stemming tubes and impale them thereon. As the pears are carried away from the feeder by the stemming tubes, they are successively 'presented to a series of peeling devices mounted upon a reciprocating carriage, which is moved alternately toward and away from the turret in timed relation thereto so as to draw the peeling devices over the pears on the stemming tubes during the periods intervening between intermittent movements of the turret. After being presented to the several peeling devices, the peeled pears are then presented by the stemming tubes to a splitting and coring station where they are removed from the tubes and carried onto a splitting blade in operative relation with coring and butt trimming knives, which operate to cut out the cores and trim the butt ends of the pears. These latter devices complete the cycle of operations on the pears which, having been stemmed, peeled, cored, trimmed and split into halves, are then released into a discharge mechanism which ejects the nished halves from the machine.

The turret and drive With the foregoing general description in mind, the details of the mechanisms referred to will become apparent by first referring to Figs. 1 and 3 wherein it will be seen that the machine includes a supporting framework made up of a base l upon which is mounted a pair of opposed end standards 2 and 3 rigidly interconnected by a pair of tie rods ii. Extending between, and supported by the end standards, is the turret shaft 5, rotatably journalled at one end in a bearing 6 carried by the end standard 2 and supported adjacent its other end by a sleeve i journalled in roller bearings 8 disposed Within a bearing housing 9 formed integral with the end standard 3.

The turret shaft 5 projects beyond the end standard 3 into a gear chamber formed by a gear cover II secured to the outer flanged face of the end standard and is intermittently rotated one- -sixth of a revolution` at a time by means of a Geneva gear I2 keyed thereto (see Figs. 1 and 4) and actuated by the Geneva driver I3 carrying the usual driving roller I4 which engages with the radial slots I5 in the Geneva gear for driving the same. When the driving roller I is out of driving engagement with the Geneva gear the latter is locked against rotation by the locking pin I6 carried by the driver I3,

The Geneva movement described is driven from the continuously rotating main drive shaft I1 carrying a driving pinion I8 which intermeshes With suitable gear teeth extending around the periphery of the Geneva. driver I3. Power for operating the main drive shaft Il may be supplied from an electric motor 20 through a clutch 2I by means of suitable drive connections inclosed within a guard casing i2 conveniently mounted on the gear cover II. As the clutch 2l may be of a conventional self-opening type such as that disclosed in the patent of William de Back No. 1,985,242, dated December 25, 1934, it ls thought unnecessary to disclose details of its construction. The clutch may be actuated into and out of engagement by control lever 23 so as to connect or disconnect the drive for the shaft II and the pinion I8. A hand wheel 28 may be connected to the drive shaft I'l so as to permit the machine to be turned over by hand if desired.

Fixed to the turret shaft 5 near the right hand end thereof, as viewed in Fig. 3, is a turret 29 provided with an annularly arranged series of stemming tubes 30 having radial ns 30a. Six tubes 30 are shown in the illustrated embodiment, upon which the pears to be processed are impaled, stem end first, by a feeding mechanism hereinafter to be described. The construction of the stemming tubes and their associated mechanism is not important to the instant invention and is fully disclosed in said application Serial No. 745,252.

Under the intermittent rotative movements of the turret 29, each of the stemming tubes 30 is successively brought into registration with the feed mechanism to be disclosed later, a series of peeling units, and a coring and splitting unit, the operation of these .parts being timed in relation to the rotation of the turret so as to take place while the turret is stationary, the peeling units and the clamp assembly of the coring and splitting unit being advanced and retracted during each period that the turret is at rest. For this purpose, the peelingunits 3l and the clamp assembly 32, for bringing the fruit into operative relation with the stationary splitting blade 33 and the stationary coring and trimming knives 34 and 35, all of conventional construction, are supported by a reciprocating carriage including a plate 3B secured to the forward end of a cam cylinder 31 and a rear plate 38 also secured to the cam cylinder. The cam cylinder is slidably journalled on the turret shaft 5 and the sleeve 'l for axial reciprocation thereover, and the rear plate 38 carries a depending post 39 which is provided at its lower end with a follower roller i0 (Figs. 3 and 5) engaging in a rectilinear groove in a guide block il! on the base I. This mechanism serves to prevent rotation of the cam cylinder 31 about the axis of the turret shaft 5. The cam cylinder 3l is separated intermediate its length to form two complementary sections rigidly held in spaced relation to each other by means of spacer rods i2 (Figs. 3 and 5) extending between the end plate 38 and the plate 36, thereby forming a cam groove or slot 43 between the adjacent sections of the cam cylinder. Axial reciprocation is imparted to the cam cylinder 31 from the sleeve 7, which is rotatably journalled on the turret shaft 5 and carries a radially projecting post M on whichis mounted a pair of cam rollers 45 and 46, the latter of which engages with the cam slot 43, while the former may be used in conjunction with the splitting and corlng unit. The sleeve 1 is continuously driven through the medium of a gear 41 (Figs. 1 and 3) secured thereto andintermeshing with a gear 48 keyed to the continuously driven shaft 49 (Fig. 4) which carries Geneva driver I3.

As seen in Fig. 3, the cam slot 43 extends part way around the cam cylinder in a plane at right angles to the axis of the cylinder, and the remainder of its length includes a pair of reversely related angular portions. By this conguratlon of the cam slot it will be apparent that While the sleeve 1 rotates continuously, the cam cylinder itself is only intermittently reciprocated, since it is only actuated during part of each revolution of the sleeve. 'I'he disposition of the cam slot with relation to the drive mechanism is such that the cam cylinder remains stationary dur.

ing rotative movements of the turret 29 and the feeding mechanism, and is advanced and retracted during the periods intervening between the intermittent rotative movements of the turret and feeding mechanism.

The construction and operation of the peeling, coring, and splitting mechanisms, as Well as the clamp mechanism and the mechanism for discharging the pair halves from the machine, are fully described in said application, Serial No. 745,252, and further description is believed unnecessary here.

The feeding mechanism For feeding the pears to the stemming tubes 30 and impaling them thereon in accurately centered position with respect to their stern axes, a. mechanical feeding mechanism is provided which is operated in timed relation to the turret 29 to deliver the pears automatically onto the stemming tubes in properly aligned positions.

Such feeding mechanism (see Figs. l, 10 and 14) includes a drive shaft'5l extending longitudinally of the machine along one side thereof and intermittently rotated one-third revolution at a time in an anti-clockwise direction as viewed in Fig. 14, by means of a gear secured to the shaft and intermeshing with gear teeth 52 formed around the periphery of the turret 29. The drive shaft 50 is journalled at one end in a bearing 53 (Fig. 1), carried by a bracket 54 secured to the end standard 2 and at its other end in a bearing 55 (Fig. 10) formed on the end closure 56 of a cylindrical cam housing 51, which may be suitably secured to the end standard 3.

As best seen in Figs. 5, 6 and 10, a pair of spindle frames generally indicated at 59 and 60 are mounted upon the drive shaft 50 within the cam housing 51, and are interconnected for rotation in unison by tie rods 6I. The rear spindle frame 59 includes a hub portion 62 and a plurality of radially extending arms 63, three in all The arms 63 of the rear spindle frame are bored near their outer ends for the reception of sleeves 68 pressed therein to receive ejector rods 69 which are secured therein by set screws 10 engaging split clamping bushings a seated in the sleeves 68, and these rods project interiorlyof spindle sleeves 1I which are slidably mounted in the spindle frame. The spindle sleeves 1| are slidably journalled in the forward spindle frame arms 65, which are suitably bored for their reception, and carry tubular spindles 12 brazed to their forward ends so as to be rmly secured thereto. The spindles 12 have their free endsl sharpened to a knife like edge, and have opposite integral fins, as indicated at 13. Spindles 12 serve to receive the pears Which are impaled thereon butt endsfirst and carry them into properly centered relation to the stemming tubes 30 for transfer thereto with ns 13 aligned with the tube fins.

The rear ends of the spindle sleeves 1| are adjustably mounted in slit clamping bushings 14 seated in slide blocks 15, set screws 14a serving to clamp sleeves 1| in the bushings 14. Slide blocks are slidably journalled on the tie rods 6| which parallel the spindle sleeves and are rigidly secured in the spindle frames by suitable means. Guide rods 11 are provided to prevent rotation of the slide blocks about thel rods 6| and for this purpose, the slide blocks are provided With arms 19 having semi-cylindrical bearings or yokes 19 formed on their outer ends to embrace the rods 11 for sliding movement therealong.

The spindle sleeves 1| are axially reciprocated during rotation of the spindle framesso as to advance and retract the spindles 12 in timed relation to the operation of a centering mechanism shortly to be described, so as to impale the pears thereon in correctly aligned position as they are presented thereto by the` centering mechanism and then present them to the stemming tubes 36 carried by the turret 29.

This is accomplished in part by stationary cam plates 8|) and 8| secured to the inner surface of the cam housing 51 by spacer lugs 83, and partly by a reciprocating latch mechanism to be described later, all of. which are arranged to operatively engage with roller cam followers 84 carried by the slide blocks 15, cams 80 and 8| having advanced a spindle 12 to its farthest forward position when in alignment with the stemming tube 30 at the transfer position shown in Fig. 10.

The mechanism for pushing the pear oif of a spindle onto a stemming tube, as best seen in Figs. 8, 9 and 10, includes a pusher 85, one of which is slidably mounted on each spindle sleeve 1|, and each pusher is provided at its outer end with an annular flange 86 forming a pusher head for engagement with a pear impaled on the spindle 12. The flange 86 is slotted at 81 to receive the fins 13 of the associated spindle 12. Each pusher 85 has offset apertured bosses 88, 89 slidably engaged with an extending end of the adjacent guide rod 6| to maintain the alignment of the pusher with the spindle. The rear end of each pusher also carries a bracket plate 96 provided with a pairof rearwardly projecting lugs 9|, which with the pusher in retracted position as shown in Figs. 8 and 10 extend to either side of the adjacent arm while bracket plate 90 is engaged with the arm 65. The pushers 85 are normally held in retracted position, as shown in Figs. 8 and 10 by an annular flange 92 sec-ured to the inner surface of the cam housing 51 adjacent its open end, in which position an end of the bearing 09 is received in a recess 93 in the associated spindle arm 65.

The pushers are actuated at the proper moment by means of a reciprocating latch block 94 mounted on the edge of the reciprocatory carriage 36 directly beside the position marked C of the spindle assemblies and operative in an opening 95 in the cam housing 51. The latch block 94 is transversely channeled at 96 and in its retracted position, as illustrated in Fig. 8, the channel is aligned with the path followed by the cuter ends of the spindle arms 65 and pusher bracket plates 90 so as to receive them therein as they come to rest at position C. A pair of lugs 91 project-upwardly from the latch block for engagement with the corresponding lugs 9| on the bracket plates 90.

During the rest period of each spindle assembly at position C the latch block is carried ilrst forwardly, as illustrated in Fig. 9, and then rearwardly by the movement of the carriage 36 to which it is secured. As the latch block moves forwardly the lugs 9| on the pusher bracket plate 90 are engaged by the corresponding lugs 91 carried by the latch block 94, and the pusher is thereby advanced so as to push the pear oi?. the spindle 12 onto the stemming tube 30 aligned therewith.

Upon reverse movement of the latch block94 its hooked end engages the bracket plate 90 and returns the pusher to its original normal position with respect to the spindle arm as shown in Fig. 8. During the reciprocative movements of the latch block and pusher, the spindle frames 63 and 65 are rigidly locked against any rotative movements such as might misalign the spindle 12 with the stemming tube 30 by means of a longitudinal groove 98 in the face of the latch block which slidably engages with a key 99projecting from the outer end o-f each spindle arm 65.

The reverse movement of the latch block 94 is also utilized to retract the aligned slide block 15 and its associated lmpaling spindle. For this purpose, the latch block carries a rearwardly projecting resilient strip 94a (Fig. 10) which has its end bent to engage in front of the roller 84 of a slide block 15 when the latch block is in its forward position. The resiliency of the strip 94a provides for yielding thereof in passing forwardly over the roller 84 during the forward movement of the latch block to the position shown in Fig. 10. Duringl the subsequent reverse movement of the latch block 94, the slide block 15 is returned to initial position for subsequent actuation by the shuttle block of a hereinafter described reciprocating latch mechanism which advances the spindles to impale the pears. As an impaling spindle 12 is retracted with its slide block, the associated rod 69 will eject the severed part of the pear from within the spindle.

Upon completion of theY reciprocativ'e movements of the latchbloc-k 94 and pusher 85, whereby the pear is transferred from the spindle 12 `to the stemming tube 30, the spindle assembly is rotated back to position A, the turret 29 revolv- 'lng at the same time to carry the stemming tube 75 cam housing 51 directly beside one of the positions at which the spindle sleeves come to rest at each idle period between the intermittent rotative movements of the spindle frames. Said mechanism includes a grooved a. shuttle block |00 slidably mounted on parallel guides IOI carried by a guide frame |02 secured to the outside of the cam housing over an opening |03 cut therein' and through which the shuttle block projects. The rear face of the shuttle block carries a latch I 04 pivoted to the block at |05 and having a hooked end formed by an arcuate cam finger |06 projecting upwardly from the body of the latch and provided with a bevelled portion |01. A spring I 08 normally urges the hooked end of the latch outwardly away from the shuttle block.

The shuttle block |00 is normally retained in its extreme forward position, as illustrated in Fig. 13, during` the rotative periods of the spindle frames, and is reciprocated once during each stationary period of the spindle frames. Reciprocation of the shuttle block is effected by means of a shift arm |09 which is loosely connected to the shuttle block by means of a pin I|0 carried by a boss III on the front of the block and slidably projecting through a bearing I I 2 in the upper end of the shift arm. A light `coil spring II3 surrounds the pin between the face of the shift arm and a washer |I4 held on the pin by means of jam nuts I I5, which may be adjusted to vary the tension of the spring, as will be apparent.

The shift arm |09 (see Figs. 5 and 13) is secured on a shift rod I|6 extending longitudinally of the machine and having its ends slidably mounted in brackets II1 depending from a side rail II8 secured at one end to the under side of the cam housing 51 and at the other end to the bracket 54. The shift arm is provided with a gudgeon II9 at its lower end which engages a bearing |20 formed on one end of a horizontal rock arm |2I pivotally journalled intermediate its length on a vertical pivot stud |22 secured to the base I. The opposite end of the rock arm I2I also carries a bearing |23 journalled on the guide post 39 depending from the end plate 38. It will be recalled, that the cam cylinder 31 is reciprocated during each of theiperiods intervening between the rotative movements of the turret 2? and of the drive shaft 50 of the feed mechan sm.

By thearrangement just described, it will be seen that as each spindle 12 is carried by the spindle frames 59 and 60 into position A, as indicated on Figs. 5, 6 and 16, and during the idle periods between intermittent rotative movements of the spindle frames, the shuttle block |00 is successively moved first to the left, as viewed in Fig. 13, and then to the right, the spindle frames be ing stationary during this time. As the shuttle block moves to the left, the latch |06 rides over the adjacent cam roller 84 carried by one of the slide blocks 15 and snaps intoplace behind it. When the shuttle block is then moved back to the right, the latch engages the cam roller and yieldingly moves the slide vblock 15 to the right, thereby also advancing its associated spindle 12 to engage the blossom 'end of a pear presented to it by the centering mechanism. Upon reaching the forward or right hand end of its stroke, the shuttle block stops and remains idle during the succeeding rotative movement of the spindle frames, which brings the next succeeding slide block 15 and associated spindle into position for actuation by the shuttle block, which thereupon repeats the cycle of operations described.

For a proper understanding of the movements of the spindles and the purposes 4accomplished thereby throughout their cycle of rotation, it will be convenient to consider their operation in con- 5 Vjunction with the construction and operation of the centering mechanism which is cooperatively associated with the spindle mechanism and which operates in unison therewith. Such centering mechanism as previously stated includes a stem 1o end centering mechanism for positioning the stem end of the pear with reference to its stem, and a calyx end centering mechanism for positioning the calyx end with reference to its exterior contour, so that the pear is presented in proper 15 centered relation to an impaling spindle, i. e., with its longitudinal axis substantially in line with the spindle axis.

The stem end centering mechanisin,best seen in Figs. 10, 13, and 14, includes an oscillatory cam 20 disc |24 journalled on the shaft 50 adjacent a supporting standard |25 carried by the side rail ||8 which extends alongside the machine. on the drive shaft 50 in opposed relation to the cam disc |24 is a drive disc |26, the face of which 251s held in spaced relation to the cam disc by a centrally arranged spacer boss |21. The drive disc is intermittently rotated by a flange .I 26 (Fig. 1) formed on its hub portionv|29 and secured to the intermittently driven gear 5| by cap 30 screws |30.

Mounted between the opposing faces of the discs |24 and |26 (Figs. 10 and 14) are three pairs of scissor like centering blades |3| corresponding to the three spindles 12 and arranged in align- 35 ment therewith. The centering blades of each pair are provided with complementary notches |32 and are pivotally mounted on the drive disc |26 by studs |33. The edges of the notches |32 are preferably sharpened except at their apexes and for a short distance immediately adjacent thereto, at which places they are upset or dulled in order that they may clamp the stem portions of the pears therebetween in 'the manner shortly to be described. The inner ends of the blades are provided with oppositely disposed bosses |34 which hold the blades |3| in shearing relation, and the adjacent edges of the bosses are provided with intermeshing gear segments |35 whereby the blades of each pair are operated in unison. One of the blades of each pair is provided with an arm carrying a cam roller |36 which engagesa cam slot 424er cut in the face of the oscillatory cam disc |23.

It will be seen that the centering blades 3| and the spindles 12 are rotated in unison and in aligned relation. The positions assumed by the several pairs of centering blades during each period between intermittent rotative impulses is .shown in Fig. 14, wherein the positions I, II and III correspond and are opposite the positions A, B and C. respectively, of the spindles 12, as indicated in Fig. 6. As maybe seen in Fig. 14, the centering blades in position I are slightly overlapped so that the notches |32 form a restricted aperture, this being the initial condition of the blades in position I. As each pair of blades comes to rest in this position, the operator manually inserts the stem end or nose of a pear into the aperture formed by the notches (see Fig. 16), whereupon the pair of blades are operated by movement of the cam disc |24 to shear through the flesh of the pear supported therebetween, and snugly grip the stem of the pear between the dull apexes of the complementary notches |32, thereby accurately centering the stem end of the pear Mounted with reference tothe stem itself, as illustrated in Fig. 17.

To effect the closing of the centering blades, the cam disc |24 (Figs. 4 and ,10) has pivotally secured thereto atr|31 an adjustable link |38 (Fig. 14) which has its lower end pivotally connected at |38a to arm '|39 on shaft |40 which is journalled in the brackets ||1. Adjacent standard 3 (Fig. 4) the shaft |40 carries an arm |4|, which has its free end pivotally connected to a link |42 which extends upwardly and across the machine to be pivotally connected .to an arm |43 on a shaft |44 journalled in a suitable bracket on the end standard 3. 'I'he shaft |44 also carries arm |45 having a cam follower roller |46 engaging in a cam groove |41 formed integrally in a face of the driver I3. The function of the cam groove |41 during its rotation is to operate through the connecting linkage to oscillate shaft |40 once during each cycle of the operation of the machine. The oscillation of shaft |40 serves through link |30 to oscillate the cam disc |24 in a clockwise direction as viewed in Fig. 14, so that the cam groove thereof serves to move the blades |3| at the I position to close on the stem of the pear, as illustrated in Fig. 15. At the same time, the calyx end centering mechanism becomes operative, and such mechanism will now be described.

'I'he calyx end centering mechanism comprises a ring or ring-like centering means which engages about the calyx end of the pear to center such end with reference to the exterior contour thereof. More specically, such mechanism includes ring |50 (Figs. '1 and 13) which may be supported in substantial axial alignment, when operatively engaging a pear, with the notches 32 of the centering blades and with spindle 12. Ring |50 may be formed integrally at the upper end of a rod |5| and may be provided with a gap at the top to permit the projected impaling spindle to pass therethrough. The rod 5| is suitably secured at its lower end in an upstanding arm of a ring lever |52 having a hub |53 pivoted by a suitable bushing on a stud E54 between suitable washers. head slidably received in a T-shaped groove of The stud |54 has a hangedl a guide bracket |55 on the right-hand depending bracket ||1 to provide for adjustment of the ring lever relative to the centering blades t9 accommodate different sizes and varieties of pears. A selected adjusted position of the ring lever on the bracket |55 is maintained by a clamping nu't |56 threaded on the stud |54.

Ring lever |52 extends downwardly from its pivotal support on the stud |54 and is provided with a face |6| (Fig. 13) for engagement with rod 62 adjustably threaded in an arm |63 clamped on the shift rod ||6. 'I'he rod |62 serves to rock the ring lever |52 and ring |50 to the position shown in Fig. 13 at the end of each dwell in the rotation of the spindle carrier against the tension of a spring |64 connected between the upper arm of ring lever |52 and the frame. 'I'he depending arm of the ring lever |52 also carries a lateral extension |66 in which a rearwardly extending rod |61 is secured so that it extends beneath a radially projecting rod |68 suitably clamped on the rock shaft |40.

The above described mechanism operates to permit advance and to positively retract the centering ring in timed relation to the movement of the impaling spindle and the centering blades. It will be recalled that the rod ||6 is maintained in the position shown in Fig. 13

except just prior to and during the dwells in the rotation of the carrier spindle.. Thus. during such periods, the small rod |62 carried by the shift rod II6 is engaged with face IBI of the ring lever, thereby maintaining the centering ring in its inoperative position as illustrated in Figs. 13 and 16. Just prior to a dwell in the rotation of the carrier spindle, the shift rod ||8 is retracted by the operation of its controlling cam and linkage, however, the centering ring is maintained out of engagement with a pear by virtue of the engagement of itsarm |61 under the arm |68 on rock shaft |'4 as described above.

It will be recalled that rocking of shaft serves, by oscillation of the cam controlling the centering blades, to cause such blades to shear through the flesh of the pear and grasp the stem therebetween.- `'Ihe rocking of shaft |40 also lifts the arm |68 to release the centering ring so that it can move under the influence' of its spring |64 into engagement with the calyx end of the pear, this action preferably occurring at approximately the same time or shortly after the centering blades close to grasp the pear stem. In other words, the centering blades close suiliciently to prevent endwise movement of the pear when the centering ring engages the calyx, but preferably will not close sufciently, prior to contact of the ring with the pear, to interfere with the centering movement of the calyx end.

The action of the centering `ring as it engages the calyx end of the pear is to shift the calyx end of the pear laterally so that its exterior contour is centered with reference to the ring, and to facilitate such movement, the ring |50, as best seen in Fig. 7, may be provided with a plurality of rollers |10, freely journalled thereon between spacing washers |1|. Rollers |10 are preferably formed of more or less soft rubber to avoid injury to the pears. It will be apparent that because the rollers |10 lie in planes which extend radially of the ring so as to intersect at its axis, they provide rotatable or live contact points with the pears, and enable easy movement of a pear relative to the ring, so that it will quickly assume a centered position when the calyx end is engaged by the ring |50. It is to be noted that because the ring moves over the pear from its calyx end, the engagement of the ring with the pear is at the farthest point from the centering blades for each pear, whether it be long or short, thereby insuring the best cen- 'tering action on each pear fed to the centering mechanism.

At substantially the time the pear is aligned or centered by the centering blades |8| and the centering ring |50, the corresponding impaling spindle 12 at position A begins its advance (see Fig. 17) toward the pear, by the action of the shuttle block |00 engaging the cam roller on the slide block 15. The spindle 12 will enter the pear before rod |62 rocks the centering ring to release the pear', and continues to advance to the position shown in Fig. 18, after which the' during the travel of the pair lof centering blades from position I to position II, the controlling cam |24 therefor is returned gradually from the.

position shown in Fig. 15 to that shown in Fig. 14, so that the centering blades remain closed during this travel, and so that the next pair of centering blades approaching position I will be opened as a preliminary to the feeding of another pear to the machine.

As the centering blades and spindle assemblies approach positions II and B, respectively, the pear carried thereby is passed beneath a rapidly revolving circular knife |12 which cuts oil. a predetermined portion of the stem end of a pear, leaving it entirely supported by the spindle. If desired, the configuration of the cam slot between cam plates and 8| may be such that each spindle assembly is retracted a slight distance just after the end of the pear has been severed by the knife |12, which occurs immediately prior to latter wrenching the pear out of alignment on I The knife |12 is secured to a drive the spindle. shaft |13 operatively connected at one end with the electric motor 20 and journalled at its other end in a bearing |14 carried by the vsemi-cylindrical centering blade guard |15 (Fig. 1)' formed integral with the bracket 54. AA safety guard |16 may be provided for shielding the knife |12.

During the advance of a pair of centering blades and an impaling spindle from positions I and A to positions II and B, it ispossible that the operator may have failed to release the pear or may have a hand caught in the feed mechanism. To take care of this possibility and tol prevent injury to the operator, a safety device is provided y for stopping the machine if the operator's hand is carried along with the feeding mechanism. For this purpose, a longitudinally extending shaft |80 (Fig. 1) is journalled at |8| in the gear casing 22 and in a bearing |82 on the bracket'64, and adjacent the feed mechanism is provided with a laterally extending arm |83 (Figs. 1 and 14) having a rod'l84 mounted in the bent end thereof parallel to the shaft |80. The rd |84 is positioned above the feed mechanism so as to be contacted by the operator's hand or arm if the hand is caught accidentally in the feed mechanism. Upward movement of the ,rod |84 will cause oscillation of the shaft |80, so that an arm |85 secured on the opposite end of the shaft will be rocked downwardly. The end of the arm |85 overlies a pin |86 mounted on a pawl |81 (Fig. 2) normally spring urged away from a ratchet |88 on the drive shaft I1. Thus, downward 'movement of the arm |85 will serve to engage the pawl |81 into engagement with the ratchet to lock the drive shaft, and, thereby, the operating parts of the machine. As previously stated, the clutch is of the self-opening type when overloaded, so that the source of power is automatically disconnected lfrom the drive shaft upon locking thereof.

The next advance of the spindle assembly and its corresponding centering blades from position B andII carries them through another one-third revolution to bring them into position C and III, respectively, as indicated in Figs. 5 and 14. 70

During this movement the centering blades |8I,

having performed their function, are opened wide I by the action of the cam disc |24 so as to clear the pear supported upon the spindle 12, which latter is further advanced by the cam plate 80 75 during its approach to position C so as to position the stem end of the pear immediately adjacent the end of one of the stemming tubes 30, which is brought into alignment with the spindle at this time by the turret 29 operating in timed relation to the feed mechanism.

During the ensuing period prior to the next rotative movement of the turret 29 and the spindle assemblies, the pear is pushed off the spindle onto the stemming tube 30 aligned therewith by the pusher 85 as previously described.

Operation The operation of the machine willnow be described in connection with the progress of al single pear through the machine, it being understood that the pears will be fed successively to the machine and progress similarly therethrough.

Upon the application of power to the main drive shaft I'I, the turret shaft 5 is rotated intermittently one-sixth of a revolution at a time by means of the train of gearing including pinion I8, gear I9, Geneva driver I3 and Geneva gear I2, to carry each stemming tube 30 successively into registration with the transfer station C, then with each peeling unit 3| in turn, then with the splitting, coring and trimming unit, and thereafter back to the loadin"g station, from whence the cycle of movement is continuously repeated during operation of the machine.

The feed mechanism is intermittently operated in unison with the turret 29 through the medium of the turret gear 52, gear and feeder drive shaft 50, whereby at each one-sixth revolution r cf the turret the feed mechanism is revolved onethird revolution to carry each spindle 'l2 successively from position A to intermediate position B, then to position C into alignment with a stemming tube 30, and then back to position A for a repetition of the cycle.

During each stationary period of the feeder drive shaft 50 an attendant manually positions the stem end of a pear into the opening provided by the complementary notches |32 of that pair of centering blades ISI at position I, which is directly in line with position A of the spindles '12, at which point the centering ring I 50 and the spindle are initially in retracted position.

As the attendant supports the pear in the position described, the shift rod IIS is moved rearwardly to engage the shuttle block |00 with an impaling spindle as Well as to withdraw the rod |62 so that movement of the centering ring into engagement over the caylx end of the pear is placed under control of the arm |68 on the rock shaft |40. At the same time rock shaft |40 is operated to close the centeringblades so that they shear through the flesh of the pear and engage its stem, as well as to permit the operative movement of the centering ring by spring |64. The action of the centering mechanism thus/effects position of the pear properly centered for engagement by the impaling spindle.

During the centering of the pear, the shuttle block |00 is reciprocated by shift rod I|6 rst rearwardly as described above, so that the spring latch rides over and engages behind the cam roller 84 on the slide block 'I5 to which the spindle is secured, and then forwardly to advance the spindle into engagement with the blossom end of the pear, which is held by the centering ring so that the spindle engages it centrally of its blossom end. 'I'he advance of the spindle is such that it penetrates about halfceeding rotative movement of the spindle andV centering blade assembly carries them in unison through one-third revolution to positions B and II respectively, where they again come to rest. It will be understood, of course, that simultaneously the succeeding spindle and corresponding pair of centering blades are brought into positions A and I, respectively, whereupon the operator presents another pear to the centering blades and the centering ring in the same manner as before. It will be noted that in the retracted position of the centering ring there is sufficient clearance for an impaling spindle to move into its position at A.

During the travel of the centering blades from I to II they are maintained as positioned with` the stem between the complementary notches |32, thereby maintaining the position of the pear with its stem axis aligned with the spindle '|2. Then, as the parts approach positions B and II, the spindle is advanced by means of the cam plate 80, acting on the cam roller 84 carried by the slide block 'I5 thereby' firmly impaling the pear on the spindle in accurately axially aligned relation. This is accomplished just before the parts reach positions B and II, and at this time the stern end of the pear passes under the revolving knife |12 which cuts a predetermined portion off its stern end and leaving the pear entirely supported by the spindle '|2.

The next succeeding rotative movement of the spindle and centering blades carries them to positions C and III, respective-ly, during which time the spindle is further advanced to position the pear closely adjacent the stemming tube 30, which comes into axial alignment with the spindle at this position, and the centering blades are opened wide so as not to obstruct the transfer of the pear.

When the spindle` carrying the pear has come to rest in position C, the latch block 94 is actuated by the movement of the carriage 36 to advance and retract the pusher 85 which, during its advance, shoves the pear off the spindle and impales it on the stemming tube on its stem axis. The retraction of the latch block 94 serves, through the spring strip 94a, to retract the spindle over the guide rod 69, which operates to eject any part of the core left in the spindle.

At the next step the turretis rotated to carry the pear downwardly away from the feeding mechanism and into registration with the rst peeling unit, the spindle and centering blades meantime revolving back to positions A and I.

The pear is carried step bystep past the various peeling units and into registration with splitting, coring, and trimming unit. While the tury -ret is stationary in this position, the clamp as- No. 745,252, so that further description herein.

of their operation is not believed necessary. However, it will be obvious that because of the proper 'centering of the pears by the feed mechanism, including the centering ring and blades, the pears are presented to the peeling, splitting, trimming and coring knives -in the proper position to enhance the operation thereof, and to insure the production of uniform attractive pear halves.

Although the particular embodiment ofthe invention as described is primarily designed for operating on pears, the invention is not necessarily confined thereto, but may be used either in its entirety or in part, with or Without modification, on other fruits as well, without departing from the spirit of the invention. Therefore, I deem myself entitled to all such uses, modifications, or variations as fall within the spirit and scope of theY appended claims. l

Having now described my invention and in what manner the same may be used, what I claim and desire to protect by Letters Patent is: l. In a pear preparation machine having pear processing means including a pear impaling member for supporting a pear; feed Amechanism for delivering pears in centered relation to said processing means with their stem-blossom axis aligned with said impaling member, including means for engaging and centering the stem end of a pear,v means for engaging and centering the calyx end of a pear with reference to the exterior contour thereof. and means for operating said centering means in timed relation to first engage the stem end centering means with apear and to subsequently .engage the calyx end centering means therewith.

2. In a pear preparation machine having pear processing means including a pear impaling member for supporting a pear; feed mechanism for deliving pears in centered relation to said processing means with their stem-blossom axis aligned with said impaling member, including means for engaging and centering the stern end of a pear, means for engaging and centering the calyx' end of a pear with reference to the exterior contour thereof, means for impaling and supporting a pear, and means for operating said centering and impaling means in timed relation to first engage the stem end centering means with a pear and to subsequently engage the calyx end centering means therewith, and thereafter to effect impaling of the pear on said impaling and supporting means.

3. In a pear preparation machine having pear processing means; feed mechanism for delivering pears in centered relation to said processing means, including a spindle for impaling and supporting a pear, centering means for engaging and holding the stem of a pear in alignment with said spindle, and ring-like centering means for engaging the exterior contour of the pear at the calyx end thereof to center and hold the calyx end in alignment with said impaling spindle.

4. In a pear preparation machine having pear processing means, feed mechanism for delivering pears in centered relation to said processing means, including an axially reciprocable spindle for impaling and supporting a pear, a pair of centering blades for engaging and holding the stem .of a pear in alignment with said impaling spindle, a ring-like centering member for engaging the exterior contour of the pear at the calyx end thereof to center and hold the calyx end in alignment with said impaling spindle, and means for actuating Vsaid impaling spindle in timed relation to the centering operation of said blades and said centering member to impale a pear after centering thereof. 'v

5. Centering mechanism for a pear preparation machine comprising means for engaging and holding a pear at the stem end thereof, and a ring-like member for engaging the calyx end of a pear about the calyx thereof to center the pear with reference to the exterior contour of said calyx end.

6. Centering mechanism `for a pear preparation machine comprising opposed centering blades for engaging and vholding the stem of a pear at the stem 'end thereof, and a ring-like member for engaging the calyx end of a pear about the calyx thereof to center the pear with reference to the exterior contour of said calyx end.

'7. Centering mechanism for a pear preparation machine comprising means for engaging and holding a pear at the stem end thereof, and a ring-likemember for engaging the calyx end of a pair about the calyx thereofnto center the pear with reference to the exterior contour of said calyx end, said ring-like member having movable pear engaging means mounted about the periphery thereof. l

8. Centering mechanism for a pear preparation machine comprising opposed centering blades for engaging and holding the stem of a pear at the stem end thereof, and a4 ring-like member for engaging the calyx end of a pear about the calyx thereof to center the pear with reference to the exterior contour of said calyx end, said ring-like member having movable pear engaging means mounted about the periphery thereof.

` 9. Centering mechanism for a pear preparation machine comprising means for engaging and holding a pear at the stem end thereof, and means comprising a series of rotatable rings mounted in planes intersecting a common axis for engaging the exterior of the pear about the calyx end thereof.

10. Centering mechanism fora pear preparation machine comprising opposed centering blades for engaging and holding the stem of a pear at the stern end thereof, and means comprising a series of rotatable rings mounted in planes intersecting a common axis for engaging the exterior of the pear about the calyx end thereof.

11. A feed mechanism for fruit preparation machines comprising centering means for engaging the calyx end of a pear and having rollable fruit contacting surfaces arranged in ring-like array to engage about the calyx of the pear and to provide easy relative movement between the centering means and fruit being centered thereby.

l2. Centering mechanism for pear preparation machines comprising a pair of opposed centering blades movable as a unit intermittently through a plurality of positions including a. pear feeding position, means for controlling the relatively adjusted position of said blades, said controlling means normally determining separation of said blades at said pear feeding position to permit insertion of the stem end of a pear therebetween, and means for operating said controlling means with said blades at said pear feeding position to cause said blades to shear through the flesh of a pear and grasp the stem thereof.

13. Centering mechanism for pear preparation machines comprising a pear of centering blades mounted for shearing relation and provided with complementary notches cooperable as the blades are closed together to form a centering aperture of varying size for the reception of the stem end of a pear, means mounting said blades for movement as a unit through a plurality of positions including a pear feeding position, means for adjustlng said blades to control the size of said centering aperture, said adjusting means normally positioningA said blades at said pear feeding position to provide a centering aperture of a size to receive the stem end of a pear, and means for operating said adjusting means with said blades at said pearfeeding position to cause said notches to shear through theV flesh of a pear operatively associated therewith into centering engagement with the stem of a pear.

14. Centering mechanism for pear preparation machines comprising a pair of centering blades 'mounted for shearing relation and provided with complementary notches cooperable as the blades are closed together to form a centering aperture of varying size for the reception of the stem end of a pear, means mounting said blades for movement as a unit through a plurality of. positions including a pear feeding position, means for adjusting said blades to control the size of said centering aperture, said adjusting means normally positioning said blades at said pear feeding position to provide a centering aperture of a size to receive the stem end of a pear, -means for advancing saidblades from one position to another, and means for operating said adjusting means with said blades at said pear feeding position to cause said notches to shear through the flesh of a pear operatively associated therewith into centering engagement with the stem of a pear, said operating and adjusting means maininin said centering engagement during movegent gf said blades from said pear feeding position to another position.

15. In a feeding device for pear preparation machines, a fruit impaling means, a pair of centering blades arranged in opposed relation to the impaling means and between which the stem end of a pear may be positioned, a ring-like centering member between the blades and the impaling means movable into and outof engagement with the calyx end of a pair having its stem end operatively associated with said blades, and means for causing relative movement between said impaling means and said centering blades and member to impale the fruit onto said impaling means.

`1.6. In a feeding device for pear preparation machines, a fruit impaling means, a pair of centering blades arranged in opposed relation to the impaling means and betweenwhich the stem end of a pair may be positioned, a ring-like centering member between the blades and the impaling means movable into and out of engagement with the calyx end of a pear having its stem end operatively associated with said blades, meansV for operating said centering blades to grasp the stem of a pear positioned therebetween and for operating said centering member to engage the calyx end thereof, and means for thereafter causing relative movement between said impaling means and saidacenteing blades and member to impale the fruit onto said impaling means.

17. In a pear preparation machine having pear processing means; feed mechanism fordelivering pears in centered relation to said processing means, including means for centering the stem end of a pear, and centering means arranged in 9 calyx-'end with referenceto-the exterior contour thereof, and means for impaling the pear while it is in centered position.`

18. In a pear preparation machine having pear processing means; feed mechanism for delivering calyx end with reference to the exteriorcontour thereof, means mounting said calyx end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear, and means for impaling the pear while it is in centered position.

19. In a pear preparation machine having pear processing means; feed mechanism for delivering pears in centered relation to said processing means, including means for centering the stem end of a pear, centering means having rollable fruit contacting surfaces arranged in ring-like array for engagement with the calyx end of a pear for centering said calyx end with reference to the exterior contour thereof, means mounting said calyx' end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear, and means for impaling the pear while it is in centered position.

20. In a pear prparation machine having pear processing means; feed mechanism for delivering pears in centered relation to said processing means, including means for centering the stem end of a pear, centering means comprising a series of rotatable rings mounted in planes intersecting a common axis for engagement with the calyx end of a pear for centering said calyx end with reference to the exterior contour thereof, means mounting said calyx end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear, and means for impaling the pear while it is in centered position.

21. In a pear preparation machine having pear processing means; feed mechanism for delivering pears in centered relation to said processing means, including means for centering the stem end of a pair, ring-like means for engagement with the calyx end of a pear for centering said calyx end with reference to the exterior contour thereof, means mounting said calyx end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear, and means for impaling the pear while it is in centered position.

22. In a pear preparation machine having pear processing means; feed mechanism for delivering pears in centered relation to said processing means, including means for centering the stem end of a pear, ring-like means for engagement with the calyx end of a pear for centering said calyx end with reference to the exterior contour thereof, and means mounting said calyx end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear.

23. In a pear preparation machine having pear processing means; feed mechanism for delivering pears in centered relation to said processing means, including means for centering the stem. end of a pear, ring-like means comprising rollable fruit contacting surfaces for vengagement with the calyx end of a pear for centering said calyx end with reference to the exterior contour thereof, and means mounting said calyx end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear.

24. In a pear preparation machine having pear processing means; feed mechanism for delivering `pears in centered relation to said processing means, including means for centering lthe stem end of a pear, ring-like means comprising a series of rotatable rings mounted in planes intersecting a common axis for engagement with the calyx end of a pear for centering said calyx end with reference to the exterior contour thereof, and means mounting said calyx end centering means for movement to approach the pear from the calyx end and to provide for pear engaging movement thereof substantially axially of the pear.

25. In a pear preparation machine having pear processing means including a pear impaling member for supporting a pear, feed mechanism for delivering pears in centeredv relation to said impaling member with the longitudinal axis of the pear in alignment with the axis of said impaling member to provide a symmetrical disposition of the pear about said impaling member when impaled thereon, said feed mechanism including a second impaling means, means fornengaging and centering the stem end of a pear, and -means cooperating with the last named means for engaging and centering the calyx end ofthe pear with reference to the exterior contour thereof and aligning the longitudinal axis of the pear with the last named impaling means prior to impalement thereon.

26. In a pear preparation machine having pear processing means including a pear impaling member for supporting a pear, feed mechanism for delivering pears in centered relation to said impaling member with the longitudinal` axis of ,1i

the last named impaling member prior to impalel ment thereon.

27. In a pear preparation machine having pear processing means including a pear impaling member for supporting a pear, feed mechanism for delivering pears in centered relation to said impaling member with the longitudinal axis of the pear in alignment with the axis of said impaling member to provide a symmetrical disposition of the pear about said impaling member when impaled thereon, said feed mechanism including a second impaling means, means for engaging and centering the stem end of a pear with reference to the pear stem, means cooperating with the last named means for engaging and centering the calyx end of a pear with reference to the exterior contour thereof, and means for operating said second .impaling member to impale the pear while it is heldin centered relation by said centering means.

ALBERT R. THOMPSON. 

